The XC4013E-4PQ240I is a versatile field-programmable gate array (FPGA) from Xilinx’s XC4000E series, designed to deliver reliable programmable logic solutions for demanding applications. This advanced FPGA combines high-density logic capacity with robust performance characteristics, making it an ideal choice for embedded systems, telecommunications, and industrial control applications.
Product Specifications
The XC4013E-4PQ240I features a comprehensive set of specifications that position it as a powerful programmable logic device:
Logic Capacity & Architecture:
- System gates: 13,000 gates
- Configurable Logic Blocks (CLBs): 576 CLBs
- Total equivalent gate count optimized for complex digital designs
- Advanced routing architecture for efficient signal distribution
Package & Pin Configuration:
- Package type: 240-pin Plastic Quad Flat Pack (PQFP)
- Pin count: 240 pins total
- I/O pins: 192 user-configurable I/O pins
- Compact footprint suitable for space-constrained applications
Performance Characteristics:
- Speed grade: -4 (standard commercial speed)
- Operating frequency: Up to 50 MHz system clock
- Propagation delay optimized for high-speed applications
- Low power consumption design
Operating Conditions:
- Temperature range: Industrial grade (-40ยฐC to +85ยฐC)
- Supply voltage: 5V ยฑ5% tolerance
- Power consumption: Optimized for battery-powered applications
Price Information
Pricing for the XC4013E-4PQ240I varies based on quantity, supplier, and current market conditions. For accurate pricing information, customers should contact authorized Xilinx distributors or electronic component suppliers. Volume discounts are typically available for production quantities, and pricing may fluctuate based on semiconductor market conditions.
Documents & Media
Technical Documentation:
- Official Xilinx XC4013E datasheet with complete electrical specifications
- XC4000E Family User Guide containing programming and configuration details
- Application notes for design optimization and implementation
- Package mechanical drawings and footprint specifications
Development Resources:
- Xilinx development software compatibility information
- Reference designs and example projects
- Programming file formats and configuration guidelines
- Timing analysis documentation and constraints files
Quality & Reliability Data:
- Qualification test reports and reliability statistics
- Manufacturing test specifications
- Quality assurance documentation
Related Resources
Compatible Development Tools:
- Xilinx Foundation Series software for design entry and synthesis
- Place and route tools optimized for XC4000E architecture
- Timing analysis and simulation software packages
- In-circuit programming and debugging utilities
Associated Products:
- XC4000E family variants with different gate counts
- Compatible configuration memory devices
- Development boards featuring the XC4013E-4PQ240I
- Programming cables and adapters
Design Support:
- Application engineering support from Xilinx and authorized partners
- Online design communities and technical forums
- Training materials and webinars
- Reference design libraries and IP cores
Environmental & Export Classifications
Environmental Compliance:
- RoHS compliant lead-free package available
- REACH regulation compliance for European markets
- Conflict minerals reporting and compliance documentation
- Environmental management system certifications
Export Control Classifications:
- Export Control Classification Number (ECCN) as designated by U.S. Department of Commerce
- Country-specific import/export restrictions may apply
- Compliance with International Traffic in Arms Regulations (ITAR) where applicable
- Documentation required for international shipments
Quality Standards:
- ISO 9001 certified manufacturing processes
- Automotive qualification standards where applicable
- Military and aerospace grade versions available upon request
- Traceability documentation for critical applications
The XC4013E-4PQ240I represents a proven solution for designers requiring reliable programmable logic with substantial gate capacity and flexible I/O options. Its industrial temperature range and robust package make it suitable for harsh operating environments while maintaining the programming flexibility that makes FPGAs invaluable in modern electronic systems.
